Contents

Purpose

Recordings of seminars, lectures and presentations generally consist of slides plus an audio recording of the presentation. Slides are usually (if not animated) just a sequence of images. A very efficient representation of such a recording is as a stream of images with timing information plus the recorded audio underneath.

This specification defines a format to describe a timed image track, including presentation parameters, input image formats and their timing. We encourage in particular the use of the open compression formats PNG and JPEG for lossless and lossy image compression respectively.

We define a logical bitstream format for encapsulating the images inside Ogg. When multiplexed together with one of the Xiph audio codecs such as Speex, Vorbis, FLAC, or OggPCM, e.g. using Ogg Skeleton, you end up with a video format that consists of timed images and audio.

Timed Image Specification Format

The bitstream format for this "codec" should be very simple. It should essentially consist only of a sequence of images preceeded by a header with a simple set of fields to set up the decoding.

Timed Images Mapping into Ogg

The first step towards encapsulating the data into ogg is the definition of packets:

There is a OggSpots ident header with setup parameters, which is encapsulated in the bos page.

Each image is mapped into a data packet, which are each encoded in their own packet and inserted at the accurate time.

The eos page is empty.

OggSpots ident header

The timed Spots logical bitstream starts with an ident header which is mapped into the OggSpots bos page. The ident header contains all information required to identify the timed Spots bitstream and to set up a timed Spots decoder. It has the following format:

The granulerate represents the temporal resolution of the logical bitstream in Hz given as a rational number in the same way as the OggSkeleton fisbone secondary header specifies granulerate. It enables a mapping of granule position of the data pages to time by calculating "granulepos / granulerate".

The default granule rate for OggSpots is: 1/30 (30 frames per second resolution).

The granuleshift is a 1 Byte integer number describing whether to partition the granule_position into two for the OggSpots logical bitstream, and how many of the lower bits to use for the partitioning. The upper bits then still signify a time-continuous granule position for a directly decodable and presentable data granule. The lower bits allow for specification of the granule position of a previous OggSpots data packet (i.e. image), which helps to identify how much backwards seeking is necessary to get to the last and still active image. The granuleshift is therefore the log of the maximum possible image spacing.

The default granule shift used is 32, which halfs the granule position to allow for the backwards pointer.

Image-Format:

The image format specifies e.g. JPEG, GIF. We want to avoid players stumbling over image formats that they do not understand and therefore all image formats used in an OggSpots logical bitstream need to be provided in the bos page.

Display-Width, Display-Height:

While it is expected that most of the images in the data packets are of the same size (dimensions, geometry, resolution), variations may occur. These fields provide a decoder with a resolution at which the images are to be presented. If images need to be re-scaled, aspect ratio must be kept.

Background-Colour:

For transparent images and for smaller, non-rescaled images, the background colour of the images has to be defined. This may be black, white, gray or whatever. This is a default setting which may be overruled by the specific image.

Align-Horizontal, Align-Vertical:

Smaller images that are not rescaled to display size may be aligned at several different areas inside the larger display image:

This is a default setting which may be ruled over by the specific image through its own parameters.

Options:

* Upscaling: This paramter decides whether smaller images should be scaled up to meet the display size, or just be displayed inside it. This is a default setting and can be ruled over by the specific image through its own parameters.
* Downscaling: This paramter decides whether larger images should be scaled down to meet the display size, or just be truncated. This is a default setting and can be ruled over by the specific image through its own parameters.

OggSpots data

Each data packet contains a byte offset to where the complete image is stored, a set of parameters to describe what to do with the image, and the image itself.

The insertion time is encoded in the granule_pos of the Ogg Page that the image ends on.